What Is a Null Hypothesis?
A null hypothesis is a type of hypothesis used in statistics that proposes that there is no difference between certain characteristics of a population (or data-generating process).
For example, a gambler may be interested in whether a game of chance is fair. If it is fair, then the expected earnings per play is 0 for both players. If the game is not fair, then the expected earnings is positive for one player and negative for the other. To test whether the game is fair, the gambler collects earnings data from many repetitions of the game, calculates the average earnings from these data, then tests the null hypothesis that the expected earnings is not different from zero.
If the average earnings from the sample data is sufficiently far from zero, then the gambler will reject the null hypothesis and conclude the alternative hypothesis; namely, that the expected earnings per play is different from zero. If the average earnings from the sample data is close to zero, then the gambler will not reject the null hypothesis, concluding instead that the difference between the average from the data and 0 is explainable by chance alone.
- A null hypothesis is a type of conjecture used in statistics that proposes that there is no difference between certain characteristics of a population or data-generating process.
- The alternative hypothesis proposes that there is a difference.
- Hypothesis testing provides a method to reject a null hypothesis within a certain confidence level. (Null hypotheses cannot be proven, though.)
How a Null Hypothesis Works
The null hypothesis, also known as the conjecture, assumes that any kind of difference between the chosen characteristics that you see in a set of data is due to chance. For example, if the expected earnings for the gambling game is truly equal to 0, then any difference between the average earnings in the data and 0 is due to chance.
Statistical hypotheses are tested using a four-step process. The first step is for the analyst to state the two hypotheses so that only one can be right. The next step is to formulate an analysis plan, which outlines how the data will be evaluated. The third step is to carry out the plan and physically analyze the sample data. The fourth and final step is to analyze the results and either reject the null hypothesis, or claim that the observed differences are explainable by chance alone.
Analysts look to聽reject聽the null hypothesis because it is a strong conclusion. The alternative conclusion, that the results are 鈥渆xplainable by chance alone,鈥 is a weak conclusion because it allows that factors other than chance may be at work.
Analysts look to reject the null hypothesis to rule out some variable(s) as explaining the phenomena of interest.
Null Hypothesis Example
Here is a simple example: A school principal reports that students in her school score an average of 7 out of 10 in exams. The null hypothesis is that the population mean is 7.0. To test this null hypothesis,聽we record marks of say 30 students (sample) from the entire student population of the school (say 300) and calculate the mean of that sample. We can then compare the (calculated) sample mean to the (claimed) population mean of 7.0 and attempt to reject the null hypothesis. (The null hypothesis that the population mean is 7.0 cannot be proven using the sample data; it can only be rejected.)
Take another example:聽The聽annual return聽of a particular聽mutual fund聽is claimed to be 8%. Assume that mutual fund has been in existence for 20 years. The null hypothesis is that the mean return is 8% for the mutual fund. We take a random sample of annual returns of the mutual fund for, say, five years (sample) and calculate the sample mean. We then compare the (calculated) sample mean to the (claimed) population mean (8%) to 聽test the null hypothesis.
For the above examples, null hypotheses are:
- Example A: Students in the school score an average of 7 out of 10 in exams.
- Example B: Mean annual return of the mutual fund is 8% per annum.
For the purposes of determining whether to reject the null hypothesis,聽the null hypothesis (abbreviated H0) is聽assumed, for the sake of argument, to be true. Then the likely range of possible values of the calculated statistic (e.g., average score on 30 students鈥 tests) is determined under this presumption (e.g., the range of plausible averages may range from 6.2 to 7.8 if the population mean is 7.0). Then, if the sample average is outside of this range, the null hypothesis is rejected. Otherwise, the difference is said to be 鈥渆xplainable by chance alone,鈥 being within the range that is determined by chance alone.
An important point to note is that we are testing the null hypothesis because there is an element of doubt about its validity. Whatever information that is against the stated null hypothesis is captured in the聽Alternative Hypothesis (H1).聽For the above examples, the alternative hypothesis would be:
- Students score an average that is聽not聽equal to 7.
- The mean annual return of the mutual fund is聽not聽equal to 8% per annum.
In other words, the alternative hypothesis is a direct contradiction of the null hypothesis.
Hypothesis Testing for Investments
As an example related to聽financial markets, assume Alice sees that her investment strategy produces higher average returns than simply buying and holding a stock. The null hypothesis states that there is no difference between the two average returns, and Alice is inclined to believe this until she proves otherwise. Refuting the null hypothesis would require showing statistical significance, which can be found using a variety of tests. The alternative hypothesis would state that the investment strategy has a higher average return than a traditional buy-and-hold strategy.
The聽p-value聽is used to determine the statistical significance of the results. A p-value that is less than or equal to 0.05 is often used to indicate whether there is evidence against the null hypothesis. If Alice conducts one of these tests, such as a test using the normal model, and proves that the difference between her returns and the buy-and-hold returns is significant (p-value is less than or equal to 0.05), she can then refute the null hypothesis and conclude the alternative hypothesis.